Examinando por Autor "Marusic, Barbara Golicnik"

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    A frame of understanding to better link nature-based solutions and urban planning
    (Elsevier Ltd, 2023-08) Marusic, Barbara Golicnik ; Dremel, M.; Ravnikar, Ziva
    Reinforcement of the concept of nature-based solutions in urban environments calls for their better introduction and linkage into urban planning. The paper is focused on the relationship between nature-based solutions and spatial realities, based on reciprocity among natural processes and urban patterns, emphasising the recognition of using and mimicking natural processes in urban environments. A classification framework as a form of knowledge aggregation is suggested. A matrix that simultaneously addresses the role of natural processes in nature-based solutions and the ability of such processes to deliver results for improving urban environments is proposed. Accordingly, there are three characteristic groups of solutions suggested, (1) those only using natural processes, (2) those using and mimicking natural processes and (3) those only mimicking natural processes, which implementation potentials are commented against four different types of urban patterns, to show what group of the nature-based solutions may best suit any type of spatial agglomeration. Beside green infrastructure as currently the most often addressed manifestation of nature-based solutions in cities, the paper reflects also on the physical processes as inevitable parts of nature. In relation to urban planning, sites and their characteristics are seen as a crucial aspect of nature-based solutions. The arguments are built upon exhaustive literature and case studies review, resulted in the matrix showing the matching relations among nature-based solutions and societal challenges aiming for better urban environment. Additionally, there are also sets of recommendations for bridging the policy-implementation gaps to bring nature-based solutions closer to urban planning, suggested.
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    Ítem
    A protocol for microclimate-related street assessment and the potential of detailed environmental data for better consideration of microclimatology in urban planning
    (MDPI, 2023-05-18) Ravnikar, Ziva ; Bahillo, Alfonso; Marusic, Barbara Golicnik
    This paper presents a warning that there is a need for better consideration of microclimatology in urban planning, particularly when addressing microclimate-related human comfort in designing outdoor public spaces. This paper develops a protocol for microclimate-related street assessment, considering simultaneous dynamic environmental components data gathering and better understanding of microclimatic conditions when commuting by bicycle. The development of new information and communication technologies (ICTs) has the potential for overcoming the gap between microclimatology and urban planning, since ICT tools can produce a variety of soft data related to environmental quality and microclimate conditions in outdoor spaces. Further, the interpretation of data in terms of their applicability values for urban planning needs to be well addressed. Accordingly, this paper tests one particular ICT tool, a prototype developed for microclimate data collection along cycling paths. Data collection was performed in two European cities: Bilbao (Spain) and Ljubljana (Slovenia), where the main objective was the development of a protocol for microclimate-related street assessment and exploration of the potential of the collected data for urban planning. The results suggest that the collected data enabled sufficient interpretation of detailed environmental data and led to a better consideration of microclimatology and the urban planning of cycling lanes. The paper contributes to urban planning by presenting a protocol and providing fine-grained localised data with precise spatial and temporal resolutions. The data collected are interpreted through human comfort parameters and can be linked with rates/levels of comfort. As the collected data are geopositioned, they can be presented on a map and provide links between environmental conditions within a spatial context.